Pharmaceutical Chemistry Research Laboratory, Department of Pharmaceutical Engineering and Technology, Indian Institute of Technology - Banaras Hindu University, Varanasi, 221005, India.
Neurotherapeutics Laboratory, Department of Pharmaceutical Engineering and Technology, Indian Institute of Technology-Banaras Hindu University, Varanasi, 221005, India.
Eur J Med Chem. 2024 May 5;271:116409. doi: 10.1016/j.ejmech.2024.116409. Epub 2024 Apr 16.
Inspite of established symptomatic relief drug targets, a multi targeting approach is highly in demand to cure Alzheimer's disease (AD). Simultaneous inhibition of cholinesterase (ChE), β secretase-1 (BACE-1) and Dyrk1A could be promising in complete cure of AD. A series of 18 diaryl triazine based molecular hybrids were successfully designed, synthesized, and tested for their hChE, hBACE-1, Dyrk1A and Aβ aggregation inhibitory potentials. Compounds S-11 and S-12 were the representative molecules amongst the series with multi-targeted inhibitory effects. Compound S-12 showed hAChE inhibition (IC value = 0.486 ± 0.047 μM), BACE-1 inhibition (IC value = 0.542 ± 0.099 μM) along with good anti-Aβ aggregation effects in thioflavin-T assay. Only compound S-02 of the series has shown Dyrk1A inhibition (IC value = 2.000 ± 0.360 μM). Compound S-12 has also demonstrated no neurotoxic liabilities against SH-SY5Y as compared to donepezil. The in vivo behavioral studies of the compound S-12 in the scopolamine- and Aβ-induced animal models also demonstrated attanuation of learning and memory functions in rats models having AD-like characteristics. The ex vivo studies, on the rat hippocampal brain demonstrated reduction in certain biochemical markers of the AD brain with a significant increase in ACh level. The Western blot and Immunohistochemistry further revealed lower tau, APP and BACE-1 molecular levels. The drosophilla AD model also revealed improved eyephenotype after treatment with compound S-12. The molecular docking studies of the compounds suggested that compound S-12 was interacting with the ChE-PAS & CAS residues and catalytic dyad residues of the BACE-1 enzymes. The 100 ns molecular dynamics simulation studies of the ligand-protein complexed with hAChE and hBACE-1 also suggested stable ligand-protein confirmation throughout the simulation run.
尽管已经确定了具有症状缓解作用的药物靶标,但仍非常需要采用多靶点方法来治疗阿尔茨海默病(AD)。同时抑制胆碱酯酶(ChE)、β 分泌酶-1(BACE-1)和 Dyrk1A 可能有望完全治愈 AD。成功设计、合成了一系列基于 18 个二芳基三嗪的分子杂合体,并对其对 hChE、hBACE-1、Dyrk1A 和 Aβ 聚集的抑制潜力进行了测试。S-11 和 S-12 化合物是该系列中具有多靶点抑制作用的代表性分子。化合物 S-12 对 hAChE 表现出抑制作用(IC 值=0.486±0.047μM),对 BACE-1 也有抑制作用(IC 值=0.542±0.099μM),并且在硫代黄素-T 测定中具有良好的抗 Aβ 聚集作用。该系列中只有 S-02 化合物对 Dyrk1A 有抑制作用(IC 值=2.000±0.360μM)。与多奈哌齐相比,化合物 S-12 对 SH-SY5Y 也没有神经毒性。化合物 S-12 在东莨菪碱和 Aβ 诱导的动物模型中的体内行为研究也表明,在具有 AD 样特征的大鼠模型中,学习和记忆功能得到了改善。在大鼠海马的离体研究中,发现 AD 大脑中的某些生化标志物减少,ACh 水平显著升高。Western blot 和免疫组织化学进一步显示,tau、APP 和 BACE-1 分子水平较低。在 Drosophilla AD 模型中,用化合物 S-12 治疗后也改善了眼睛表型。化合物的分子对接研究表明,化合物 S-12 与 ChE-PAS 和 CAS 残基以及 BACE-1 酶的催化二联体残基相互作用。配体-蛋白质复合物与 hAChE 和 hBACE-1 的 100ns 分子动力学模拟研究也表明,在整个模拟过程中,配体-蛋白质的构象都很稳定。
